Your search found 3 records
1 Keller, J.; Smith, B.; Aitken, P.; Le Baron, A.; Meyer, R.; Walter, M.; Wolf, J. 1984. Irrigation development options and investment strategies for the 1980's: Peru. Logan, UT, USA: Utah State University. viii, 53p. (Water management synthesis report no.14)
(Location: IWMI-HQ Call no: 631.7.8 G530 KEL Record No: H0567)
2 Wilkinson, J.; Meyer, R.; Numberg, B.; Weil, C. 1983. Peru on-farm water management. Report prepared for USAID, Washington, DC. 51p.
(Location: IWMI-HQ Call no: P 613 Record No: H0571)
3 Smakhtin, V.; Ashton, P.; Batchelor, A.; Meyer, R.; Murray, E.; Barta, B.; Bauer, N.; Naidoo, D.; Olivier, J.; Terblanche, D. 2001. Unconventional water supply options in South Africa: a review of possible solutions. Water International, 26(3):314-334.
Water supply ; Water scarcity ; Water deficit ; Water storage ; Surface water ; Water reuse ; Water harvesting ; Reservoirs ; International waters ; Virtual water ; Groundwater ; Artificial recharge / South Africa
(Location: IWMI HQ Call no: e-copy only Record No: H044313)
(2.67 MB)
South Africa faces escalating freshwater problems and will experience prolonged water deficits within the next 25 to 30 years if current patterns ofwater use continue unchanged. The level of conventional water resources utilization in the country is very high and new approaches are necessary to stretch the limited water supplies available to meet projected demands for water. Significant research into new technologies and sources of supply has been carried out in South Africa and abroad during the past few decades. This has resulted in the development and evaluation of a number ofinnovative concepts and methodologies, as well as novel adaptations to existing approaches. These concepts and methodologies include: integration of surface water transfers into a national water grid, transfers of untapped surface water resources from countries located to the north of South Africa, exploitation of deep groundwater and the use of aquifers for storage of surplus water, atmospheric water (jog and cloud) harvesting, iceberg water utilization, desalination and direct use of sea water. Some of these options are still theoretical and unproven, while others have reached different stages of practical testing and implementation. Information on these alternatives for water supply is widely scattered over many different sources. This paper reviews the available information and examines some ofthese unconventional sources and options for future water supply in terms of their technical aspects, potential applications, likely impacts, approximate costs, and regional relevance in terms of alleviating predicted water shortages.
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